M
Mikhail Y. Berezin
Researcher at Washington University in St. Louis
Publications - 114
Citations - 5195
Mikhail Y. Berezin is an academic researcher from Washington University in St. Louis. The author has contributed to research in topics: Fluorescence & Hyperspectral imaging. The author has an hindex of 33, co-authored 108 publications receiving 4407 citations. Previous affiliations of Mikhail Y. Berezin include Monsanto & University of Washington.
Papers
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Journal ArticleDOI
pH-dependent optical properties of synthetic fluorescent imidazoles.
TL;DR: The richness of imidazole optical properties, including pH sensitivity, was demonstrated by means of a novel imidAZole-based fluorophore 1H-imidazol-5-yl-vinylbenz[e]indolium by way of comparative spectral analysis with synthesized mono- and di-N-methylated fluorescent imidrazole analogues.
Journal ArticleDOI
Near infrared-fluorescent and magnetic resonance imaging molecular probe with high T1 relaxivity for in vivo multimodal imaging
Kevin Guo,Mikhail Y. Berezin,Jie Zheng,Walter J. Akers,Franck Lin,Bao Teng,Olga Vasalatiy,Amir H. Gandjbakhche,Gary L. Griffiths,Samuel Achilefu +9 more
TL;DR: A new gadolinium chelating NIR fluorescent molecular probe increases T(1) relaxivity of water protons, facilitating combined optical and magnetic resonance imaging.
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In vivo fate tracking of degradable nanoparticles for lung gene transfer using PET and Ĉerenkov imaging
Kvar C. L. Black,Aida Ibricevic,Sean P. Gunsten,Jeniree A. Flores,Tiffany P. Gustafson,Jeffery E. Raymond,Sandani Samarajeewa,Ritu Shrestha,Simcha E. Felder,Tianyi Cai,Yuefei Shen,Ann-Kathrin Löbs,Natalia G. Zhegalova,Deborah H. Sultan,Mikhail Y. Berezin,Karen L. Wooley,Yongjian Liu,Steven L. Brody +17 more
TL;DR: Quantitation of imaging over 14 days corresponded with the pharmacokinetics of NP movement from the lung to gastrointestinal and renal routes, consistent with predicted degradation and excretion.
Journal ArticleDOI
Design of irreversible optical nanothermometers for thermal ablations
TL;DR: Nanothermometers composed from a gold nanorod core, temperature sensitive linker and fluorescent dye are reported that have low fluorescence due to a self-quenching mechanism at temperatures below 50 °C and become highly fluorescence above 70 °C.
Journal ArticleDOI
Near-infrared dichromic fluorescent carbocyanine molecules.
Zongren Zhang,Mikhail Y. Berezin,Jeff L.-F. Kao,Andre d'Avignon,Mingfeng Bai,Samuel Achilefu +5 more
TL;DR: Central to major advances in biochemical assays, molecular sensor technologies, and molecular optical imaging are fluorescent materials that provide high detection sensitivity formolecular processes and near-infrared (NIR) fluorescent dyes as contrast agents in heterogeneous systems.